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Date: 20-6-2021
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Let R and S be unital rings with multiplicative identity elements 1R and 1S, and let S op be the unital ring (S, +, ×-) whose elements are those of S, whose operation of addition is the same as that defined on S, and whose operation×- of multiplication is defined such that s1×-s2 = s2s1 for all s1, s2 ∈ S.
We can then construct a ring R ⊗Z Sop. The elements of this ring belong to the tensor product of the rings R and Sop over the ring Z of integers, and the operation of addition on R ⊗Z S op is that defined on the tensor product.
The operation of multiplication on R ⊗Z Sop is then defined such that
(r1 ⊗ s1) × (r2 ⊗ s2) = (r1r2) ⊗ (s1×-s2) = (r1r2) ⊗ (s2s1).
Lemma 1.1 Let R and S be unital rings, and let M be an R-S-bimodule.
Then M is a left module over the ring R ⊗ZSop, where
(r1 ⊗ s1) × (r2 ⊗ s2) = (r1r2) ⊗ (s2s1)
for all r1, r2 ∈ R and s1, s2 ∈ S, and where
(r ⊗ s).x = (rx)s = r(xs)
for all r ∈ R, s ∈ S and x ∈ M.
Proof Given any element x of M, let bx: R × S → M be the function defined such that bx(r, s) = (rx)s = r(xs) for all r ∈ R and s ∈ S. Then the function bx is Z-bilinear, and therefore induces a unique Z-module homomorphismβx: R ⊗Z Sop → M, where βx(r ⊗ s) = bx(r, s) = (rx)s for all r ∈ R, s ∈ S and x ∈ M. We define u.x = βx(u) for all u ∈ R ⊗Z Sop and x ∈ M.
Then (u1 + u2).x = u1.x + u2.x for all u1, u2 ∈ R ⊗Z Sop and x ∈ M, because βx is a homomorphism of Abelian groups. Also u.(x1 + x2) = u.x1 + u.x2, because bx1+x2 = bx1 + bx2 and therefore βx1+x2 = βx1 + βx2.
Now
(r1 ⊗ s1).((r2 ⊗ s2).x) = (r1 ⊗ s1).((r2x)s2) = r1(r2(xs2))s1
= ((r1r2)(xs2))s1 = (r1r2)((xs2)s1)
= (r1r2)(x(s2s1) = ((r1r2) ⊗Z (s2s1)).x
= ((r1 ⊗Z s1) × (r2 ⊗Z s2)).x
for all r1, r2 ∈ R, s1, s2 ∈ S and x ∈ M. The bilinearity of the function βx then ensures that u1.(u2.x) = (u1×u2).x for all u1, u2 ∈ R⊗Z Sop and x ∈ M.
Also (1R, 1S).x = x for all x ∈ M, where 1R and 1S denote the identity elements of the rings R and S. We conclude that M is a left R ⊗Z Sop, as required.
Let R and S be unital rings, and let M be a left module over the ring R ⊗Z Sop. Then M can be regarded as an R-S-bimodule, where (rx)s = r(xs) = (r ⊗ s).x for all r ∈ R, s ∈ S and x ∈ M. We conclude therefore that all R-S-bimodules are left modules over the ring R ⊗Z S op, and vica versa. It follows that any general result concerning left modules over unital rings yields a corresponding result concerning bimodules.
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